Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
The inhibition effects of several inhibitors on rebar in acidified concrete pore solution
Highlights ► Inhibitive effects of Na2WO4 and Na2MoO4 for steel in pH 8 pore solution are studied. ► Na2MoO4 shows good inhibitive effect at low concentration (0.013%). ► Higher concentration (0.045%) is needed for Na2WO4 to inhibit corrosion. ► Sodium phytate also shows inhibitive effect when the concentration is above 0.5%. ► Raman spectrum analysis supports an adsorption mechanism for the two inhibitors.
Abstract The inhibitive effects of several inhibitors for carbon steel in acidified pore solution (pH 8.0) were studied. Sodium molybdate shows good effect to promote passivation at low concentrations (0.013wt.%), but for sodium tungstate and sodium nitrite higher concentration (0.045wt.%) is needed to obtain passivation. Sodium phytate only shows minor inhibitive effects at the concentration level of 0.045wt.%. At higher concentration level (0.045%⩽wt.%⩽2%), the inhibitors sodium molybdate, sodium tungstate and sodium nitrite behave well in the acidified pore solution. For sodium phytate, to obtain obvious inhibition the inhibitor concentration must be above 0.5wt.%. Molybdate and tungstate are present on the steel surface according to Raman spectrum analysis, which supports the adsorption mechanism of the inhibitors.
The inhibition effects of several inhibitors on rebar in acidified concrete pore solution
Highlights ► Inhibitive effects of Na2WO4 and Na2MoO4 for steel in pH 8 pore solution are studied. ► Na2MoO4 shows good inhibitive effect at low concentration (0.013%). ► Higher concentration (0.045%) is needed for Na2WO4 to inhibit corrosion. ► Sodium phytate also shows inhibitive effect when the concentration is above 0.5%. ► Raman spectrum analysis supports an adsorption mechanism for the two inhibitors.
Abstract The inhibitive effects of several inhibitors for carbon steel in acidified pore solution (pH 8.0) were studied. Sodium molybdate shows good effect to promote passivation at low concentrations (0.013wt.%), but for sodium tungstate and sodium nitrite higher concentration (0.045wt.%) is needed to obtain passivation. Sodium phytate only shows minor inhibitive effects at the concentration level of 0.045wt.%. At higher concentration level (0.045%⩽wt.%⩽2%), the inhibitors sodium molybdate, sodium tungstate and sodium nitrite behave well in the acidified pore solution. For sodium phytate, to obtain obvious inhibition the inhibitor concentration must be above 0.5wt.%. Molybdate and tungstate are present on the steel surface according to Raman spectrum analysis, which supports the adsorption mechanism of the inhibitors.
The inhibition effects of several inhibitors on rebar in acidified concrete pore solution
Tang, Yuming (Autor:in) / Zhang, Guodong (Autor:in) / Zuo, Yu (Autor:in)
Construction and Building Materials ; 28 ; 327-332
16.08.2011
6 pages
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
The inhibition effects of several inhibitors on rebar in acidified concrete pore solution
| Online Contents | 2012
The inhibition effects of several inhibitors on rebar in acidified concrete pore solution
| British Library Online Contents | 2012
Corrosion of Epoxy- and Polymer/Zinc-Coated Rebar in Simulated Concrete Pore Solution
| British Library Online Contents | 2009
Corrosion behavior of Cr modified HRB400 steel rebar in simulated concrete pore solution
| Online Contents | 2015